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Estimation of life history in corticolous lichens by zonation

Published online by Cambridge University Press:  06 December 2018

Hanne N. RASMUSSEN
Affiliation:
Department of Geosciences and Nature Resource Management, Section for Forest Nature and Biomass, University of Copenhagen, Rolighedsvej 23, 1958 Frederiksberg C, Denmark. Email: [email protected]
Thomas NORD-LARSEN
Affiliation:
Department of Geosciences and Nature Resource Management, Section for Forest Nature and Biomass, University of Copenhagen, Rolighedsvej 23, 1958 Frederiksberg C, Denmark. Email: [email protected]
Eric Steen HANSEN
Affiliation:
Biosystematics, Natural History Museum of Denmark, University of Copenhagen, Universitetsparken 15, DK-2100 Copenhagen Ø, Denmark
Guillaume HOAREAU
Affiliation:
8 Rue des Mimosas, Piton Hyacinthe, 97418 Plaine des Cafres, Ile de la Réunion

Abstract

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Type
Short Communication
Copyright
© British Lichen Society, 2018 

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References

Antoine, M. E. & McCune, B. (2004) Contrasting fundamental and realized ecological niches with epiphyte lichen transplants in an old-growth Pseudotsuga forest. Bryologist 107: 163173.Google Scholar
Armstrong, R. A. (2015) Lichen growth and lichenometry. In Recent Advances in Lichenology (D. Upreti, P. Divakar, V. Shukla & R. Bajpai, eds): 213227. New Delhi: Springer.Google Scholar
Arup, U. & Sandler Berlin, E. (2011) A taxonomic study of Melanelixia fuliginosa in Europe. Lichenologist 43: 8897.Google Scholar
Asplund, J., Sandling, A., Kardol, K. & Wardle, D. A. (2014) The influence of tree-scale and ecosystem-scale factors on epiphytic lichen communities across a long-term retrogressive chronosequence. Journal of Vegetation Science 25: 11001111.Google Scholar
Bates, J. W. (1992) Influence of chemical and physical factors in Quercus and Fraxinus epiphytes at Loch Sunart, western Scotland: a multivariate analysis. Journal of Ecology 80: 163179.Google Scholar
Callesen, I. (2003) Transfer functions for carbon sequestration, nitrogen retention and nutrient release capability in forest soils based on soil texture classifications. Ph.D. thesis, University of Copenhagen.Google Scholar
Campbell, J. & Coxson, D. S. (2001) Canopy microclimate and arboreal lichen loading in subalpine spruce-fir forest. Canadian Journal of Botany 79: 537555.Google Scholar
Clements, J. P. & Shaw, C. (1999) Crown structure and the distribution of epiphyte functional group biomass in old-growth Pseudotsuga menziesii trees. Ecoscience 6: 243254.Google Scholar
Edwards, B., Aptroot, A., Hawksworth, D. L. & James, P. W. (2009) Lecanora . In The Lichens of Great Britain and Ireland (C. W. Smith, A. Aptroot, B. J. Coppins, A. Fletcher, O. L. Gilbert, P. W. James & P. A. Wolseley, eds): 465502. London: British Lichen Society.Google Scholar
Ellis, C. J. (2012) Lichen epiphyte diversity: a species, community and trait-based review. Perspectives in Plant Ecology 14: 131152.Google Scholar
Eversham, S., Johnson, C. & Gustafson, D. (1987) Vertical distribution of epiphytic lichens on three tree species in Yellowstone National Park. Bryologist 90: 212216.Google Scholar
Fritz, Ô. (2009) Vertical distribution of epiphytic bryophytes and lichens emphasizes the importance of old beeches in conservation. Biodiversity and Conservation 18: 289304.Google Scholar
Gundersen, P., Sevel, L., Christiansen, J. R., Vesterdal, L., Hansen, K. & Bastrup-Birk, A. (2009) Do indicators of nitrogen retention and leaching differ between coniferous and broadleaved forests in Denmark? Forest Ecology and Management 258: 11371146.Google Scholar
Hale, M. E. (1952) Vertical distribution of cryptogams in a virgin forest in Wisconsin. Ecology 33: 398406.Google Scholar
Harris, G. P. (1970) The ecology of corticolous lichens. I. The zonation on oak and birch in South Devon. Journal of Ecology 59: 431439.Google Scholar
Hirata, A., Kamijo, T. & Saito, S. (2009) Host trait preferences and distribution of vascular epiphytes in a warm-temperate forest. Plant Ecology 201: 247254.Google Scholar
Jüriado, I., Liira, J., Csencsics, D., Widmer, I., Adolf, C., Kohv, K. & Scheidegger, C. (2011) Dispersal ecology of the endangered woodland lichen Lobaria pulmonaria in managed hemiboreal forest landscape. Biodiversity and Conservation 20: 18031819.Google Scholar
Kershaw, K. A. (1964) Preliminary observations on the distribution and ecology of epiphytic lichens in Wales. Lichenologist 2: 263276.Google Scholar
Kricke, R. (2002) Measuring bark pH. In Monitoring with Lichens – Monitoring Lichens (P. L. Nimis, C. Scheidegger & P. A. Wolseley, eds): 333336. Dordrecht: Kluwer Academic.Google Scholar
Marmor, L., Tōrra, T. & Randlane, T. (2010) The vertical gradient of bark pH and epiphytic macrolichen biota in relation to alkaline air pollution. Ecological Indicators 10: 11371143.Google Scholar
Marmor, L., Tōrra, T., Saag, L., Leppik, E. & Randlane, T. (2013) Lichens on Picea abies and Pinus sylvestris – from tree bottom to the top. Lichenologist 45: 5163.Google Scholar
McCune, B., Rosentreter, R., Ponzettis, J. M. & Shaw, D. C. (2000) Epiphyte habitats in an old conifer forest in western Washington, USA. Bryologist 103: 417427.Google Scholar
Mežaka, A., Brǖmelis, G., Piterans, A. & Printzen, C. (2012) Distribution of Lepraria in Latvia in relation to tree substratum and deciduous forest type. Annales Botanici Fennici 49(3): 162170.Google Scholar
Motiejűnaitė, J., Iršenaitė, R., Adamonytė, G., Dagys, M., Taraškevičius, R., Matulevičiutė, D. & Koreivienė, J. (2014) Pine forest lichens under eutrophication generated by a great cormorant colony. Lichenologist 46: 213228.Google Scholar
Nord-Larsen, T. & Nielsen, A. T. (2015) Biomass, stem basic density and expansion factor functions for five exotic conifers grown in Denmark. Scandinavian Journal of Forest Research 30: 135153.Google Scholar
Phillips, H. C. (1969) Annual growth rates of three species of foliose lichens determined photographically. Bulletin of the Torrey Botanical Club 96: 202206.Google Scholar
Rambo, T. R. (2010) Structure and composition of corticolous epiphyte communities in a Sierra Nevada old-growth mixed-conifer forest. Bryologist 113: 5571.Google Scholar
Rasmussen, H. N. & Rasmussen, F. N. (2018) The epiphyte habitat on a living host. Reflections on the orchid–tree relationship. Botanical Journal of the Linnean Society 186: 456472.Google Scholar
Saag, L. (2007) The substrate preferences of epiphytic Lepraria species in old-growth forests in Estonia. Folia Cryptogamica Estonica 43: 5156.Google Scholar
Shriver, R. K., Cutler, K. & Doak, D. F. (2012) Comparative demography of an epiphytic lichen: support for general life history patterns and solutions to common problems in demographic parameter estimation. Oecologia 170: 137146.Google Scholar
Smith, C. W., Aptroot, A., Coppins, B. J., Fletcher, A., Gilbert, O. L., James, P. W. & Wolseley, P. A. (eds) (2009) The Lichens of Great Britain and Ireland. London: British Lichen Society.Google Scholar
Snelgar, W. P. & Green, T. G. A. (1982) Growth rates of Stictaceae lichens in New Zealand beech forests. Bryologist 85: 301306.Google Scholar
Thor, G., Johansson, P. & Jönsson, M. T. (2010) Lichen diversity and red-listed lichen species relationships with tree species and diameter in wooded meadows. Biodiversity and Conservation 19: 23072328.Google Scholar
Williams, C. B. & Sillett, S. C. (2007) Epiphyte communities on redwood (Sequoia sempervirens) in northwestern California. Bryologist 110: 420452.Google Scholar
Zotz, G. (2007) Johansson revisited: the spatial structure of epiphyte assemblages. Journal of Vegetation Science 18: 123130.Google Scholar
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